SU1605107A1 - Heat generator - Google Patents

Abstract

The invention makes it possible to increase the economy by improving the quality of combustion of fuel and can be used in drying and other thermal units. The heat generator includes a housing 1 with a firebox 2, a burner 3 and a fan 4 with a nozzle 5, around which is placed a shell 6 with an opening 7. The output section 8 of the burner 3 adjoins the opening 7. The output section 9 nozzle 5 is led out of the front edge output section 8 of the burner 3 by an amount equal to 0.1-0.8 diameter of this section. The burner 3 is made injection. During operation of the heat generator, the working medium, for example air, is injected by the fan 4 into the furnace 2, where hot combustion products from the injection burner 3 are mixed in with it. When the gas flow rate in the burner 3 changes and the pressure in the furnace 2 changes accordingly, air, which improves the quality of combustion and increases the efficiency of the heat generator. 1 il.

Description

The invention relates to the field of heat and power engineering and can be used in drying and other heating units.

The purpose of the invention is to increase efficiency by improving the quality of fuel combustion.

The drawing shows a heat generator, a longitudinal section.

The heat generator includes a housing 1 with a firebox 2, a burner 3, built-in perpendicular to its axis, and a fan 4 equipped with a nozzle 5 with a shell 6 placed around it with an opening 7 on the side surface. The output section 8 of the burner 3 is installed adjacent to the opening 7 of the shell 6, and the output section 9 of the nozzle 5 15 is removed along the air movement beyond the front edge of the output section 8 of the burner 3 by an amount equal to 0.1-0.8 of the diameter of this section. The burner 3 is made injection.

provide conditions for the ejection of the working environment. The vacuum created during ejection causes part of the working medium (air) to flow to the outlet section 8 of the burner 3, which leads to a rapid temperature equalization in the furnace 2. When the gas flow rate in the burner 3 changes and, consequently, the pressure in the furnace 2, a corresponding change volume of ejected air, which improves the quality of combustion and increases the efficiency of the heat generator.

Claims (2)

Invention Formula A heat generator, comprising a housing, perpendicular to the axis of which the burner is built, and a fan, characterized in that, in order to increase efficiency by improving the quality of fuel combustion, the vent heat generator operates as follows: The heat generator is equipped with a nozzle mounted around the housing axis. with a hole on its side surface, the exit portion of the burner is installed adjacent to this hole. at once. A working medium, for example air, is injected from the volume of any technological device (not shown) by the fan 4. on nozzle 5 to furnace 2, where a 55 exit section of the nozzle is brought to it along the way hot combustion products from the injection burner 3 interfere. The mutual arrangement of the shell b and the air movement head 5 beyond the front edge of the burner outlet section is 0.1-0.8 times the diameter of the latter. provide conditions for the ejection of the working environment. The vacuum created during ejection causes the flow of a part of the working medium (air) to the output section 8 of the burner 3, which leads to a rapid temperature equalization in the furnace 2. When the gas flow rate in the burner 3 changes and, consequently, the pressure in the furnace 2, there is a corresponding change in the volume of the ejected air, which improves the quality of fuel combustion and increases the efficiency of the heat generator. Invention Formula A heat generator comprising a housing, perpendicular to the axis of which the burner is integrated, and a fan, characterized in that, in order to increase efficiency by improving the quality of fuel combustion, the veins output portion of the nozzle is removed along air movement beyond the leading edge of the burner outlet section by an amount equal to 0.1-0.8 of the diameter of the latter.